Quantum power distribution of relativistic acceleration radiation:   classical electrodynamic analogies with perfectly reflecting moving mirrors

Abay Zhakenuly; Maksat Temirkhan; Michael R.R. Good; Pisin Chen

arXiv:2101.02511·gr-qc·April 13, 2021·Symmetry

Quantum power distribution of relativistic acceleration radiation: classical electrodynamic analogies with perfectly reflecting moving mirrors

Abay Zhakenuly, Maksat Temirkhan, Michael R.R. Good, Pisin Chen

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TL;DR

This paper investigates the quantum power emitted by a relativistically accelerating mirror in 3+1 dimensions, revealing analogies with classical electrodynamics and providing insights into acceleration radiation.

Contribution

It introduces a novel analysis of relativistic acceleration radiation using a perfectly reflecting mirror, highlighting classical analogies and extending understanding in quantum electrodynamics.

Findings

01

Quantum power distribution characterized in 3+1 dimensions

02

Close analogies established with classical charge radiation

03

Demonstrates Lorentz invariance in acceleration radiation

Abstract

We find the quantum power emitted and distribution in $3 + 1$ -dimensions of relativistic acceleration radiation using a single perfectly reflecting mirror via Lorentz invariance demonstrating close analogies to point charge radiation in classical electrodynamics.

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